Articles from 2016

  1. Kereskenyi, E., Gy, S., Feher, B., Zs, K., Kristaly, F., & Rozsa, P. (2016). A Herman Otto Muzeum neolit kekpala nyersanyagu csiszolt koeszkozeinek elozetes archeometriai vizsgalati eredmenyei. In D. Julia, K. Edit, K. Peter, K. I. Janos, P.-M. Elemer, T. B. Edit, & T. Kalman (Eds.), Itt az ido! kozettani-geokemiai folyamatok es azok geokronologiai valtozasai: 7. Kozettani es Geokemiai vandorgyules (pp. 33–36). Budapest: MTA ATOMKI.
  2. RB, F., & Revay, Z. (2016). Thermal neutron radiative cross sections for Li-6,Li-7, Be-9, B-10,B-11, C-12,C-13, and N-14,N-15. Physical Review C, 93(5).
  3. Balint, P., Zsolt, B., Gyorgy, S., Zsolt, K., & Katalin, T. B. (2016). P-71. Serpentinite from the Moll Valley (Austria) as the raw material of an artefact found in NW-Hungary. In Z. Nikos (Ed.), 41st International Symposium on Archaeometry: ISA 2016: Conference Programme and Abstract Book (pp. 196–197). Kalamata: University of Peloponnese.
  4. Kis, Z., Szentmiklosi, L., Zs, K., & Maroti, B. (2016). The combination of neutron imaging and promt-gamma activation analysis.
  5. Rosta, L., Belgya, T., Gy, K., Zs, K., Kis, Z., Kovacs, I., … Rehren, T. (2016). “Beads from Heaven” - Neutron techniques reveal five-thousand-year-old iron smithing skills.
  6. Palamara, E., Zacharias, N., Xanthopoulou, M., Kasztovszky, Z., Kovács, I., Palles, D., & Kamitsos, E. I. (2016). Technology issues of Byzantine glazed pottery from Corinth, Greece. Microchemical Journal, 129, 137–150. https://doi.org/10.1016/j.microc.2016.06.008
  7. Maróti, B., Szentmiklósi, L., & Belgya, T. (2016). Comparison of low-energy and coaxial HPGe detectors for prompt gamma activation analysis of metallic samples. Journal of Radioanalytical and Nuclear Chemistry, 310(2), 743–749. https://doi.org/10.1007/s10967-016-4822-5
  8. Firestone, R. B., & Revay, Zs., (2016). Thermal neutron capture cross sections for \textsuperscript{16,17,18}{O} and \textsuperscript{2}{H}. Phys. Rev. C, 93(4), 44311.
  9. Gy, S., Zs, B., Zs, K., Harsanyi, I., Bíró, K. T., & Horvath, F. (2016). Contact metamorphic rocks as long distance import raw materials of Prehistoric polished stone tools in Hungary. In T. Pereira (Ed.), Book of abstracts of the Raw materials exploitation in Prehistory: sourcing, processing and distribution meeting (p. 95 PG-1). Faro: University of Algarve.
  10. Szentmiklósi, L., Kasztovszky, Z., Belgya, T., Révay, Z., Kis, Z., Maróti, B., … Szilágyi, V. (2016). Fifteen years of success: user access programs at the Budapest prompt-gamma activation analysis laboratory. Journal of Radioanalytical and Nuclear Chemistry, 309(1), 71–77. https://doi.org/10.1007/s10967-016-4774-9
  11. Hnatowicz, V., Zs, K., Kucera, J., Mackova, A., & Rosta, L. (2016). Neutron Beam Analytical Methods - Nuclear physics for cultural heritage. In A. Mackova, D. MacGregor, F. Azaiez, J. Nyberg, & E. Piasetzky (Eds.), Nuclear Physics for Cultural Heritage (pp. 23–29). Mulhouse: European Physical Society (EPS).
  12. Crupi, V., Kasztovszky, Z., Khalilli, F., MF, L. R., Macchia, A., Majolino, D., … Venuti, V. (2016). Evaluation of complementary methodologies applied to a preliminary archeometric study of glazed pottery from Agsu (Azerbaijan). International Journal of Conservation Science, 7(Sp2), 901–912. Retrieved from https://www.researchgate.net/publication/309463478_Evaluation_of_Complemenary_Methodologies_Applied_to_a_Preliminary_Archaeometric_Study_of_Glazed_Pottery_from_Agsu_Azerbaijan
  13. Moser, M., Paunović, V., Guo, Z., Szentmiklósi, L., Hevia, M. G., Higham, M., … Pérez-Ramírez, J. (2016). Interplay between surface chemistry and performance of rutile-type catalysts for halogen production. Chemical Science, 7(5), 2996–3005. https://doi.org/10.1039/c5sc04247j
  14. Gy, S., Zs, B., Jozsa, S., Zs, K., Starnini, E., & Horvath, F. (2016). Occurrences and provenances of Prehistoric hornfels polished stone tools in Hungary. In Z. Nikos (Ed.), 41st International Symposium on Archaeometry: ISA 2016 : Conference Programme and Abstract Book (pp. 187–188). Kalamata: University of Peloponnese.
  15. Matters, D. A., Lerch, A. G., Hurst, A. M., Szentmiklósi, L., Carroll, J. J., Detwiler, B., … Belgya, T. (2016). Investigation of Re-186 via radiative thermal-neutron capture on Re 185. Physical Review C, 93(5), 054319. https://doi.org/10.1103/PhysRevC.93.054319
  16. Moropoulou, A., Zacharias, N., Delegou, E. T., Maróti, B., & Kasztovszky, Z. S. (2016). Analytical and technological examination of glass tesserae from Hagia Sophia. Microchemical Journal, 125, 170–184. https://doi.org/10.1016/j.microc.2015.11.020
  17. Szabados, E., Srankó, D. F., Somodi, F., Maróti, B., Kemény, S., & Tungler, A. (2016). Wet oxidation of dimethyl-formamide via designed experiments approach studied with Ru and Ir containing Ti mesh monolith catalysts. Journal of Industrial and Engineering Chemistry, 34, 405–414. https://doi.org/10.1016/j.jiec.2015.12.019
  18. Bendo, Z., Szakmany, G., Kasztovszky, Z., Biro, K. T., Olah, I., Osztas, A., & Harsanyi, I. (2016). Jades and related HP greenstone polished stone implements from Hungary. In T. Pereira (Ed.), Book of abstracts of the Raw materials exploitation in Prehistory: sourcing, processing and distribution meeting (p. 94 PG-1). Faro: University of Algarve.
  19. Gy, S., Jozsa, S., Zs, B., Zs, K., & Horvath, F. (2016). Magyarorszagon elokerult hornfels (mesz-szilikat szaruszirt) anyagu csiszolt koeszkozok nyersanyaglelohelyenek felkutatasa. Archeometriai Muhely, 13(1), 43–54. Retrieved from http://www.ace.hu/am/2016_1/AM-2016-1-SzGy.pdf
  20. Ilon, G., & Kasztovszky, Z. (2016). Untersuchung spätbronzezeitlicher glasperlen aus West-Ungarn [NYUGAT-MAGYARORSZAGI KESO BRONZKORI UVEGGYONGYOK VIZSGALATA;Analysis of late bronze age glass beads from western Hungary ]. Archeometriai Muhely, 13(1), 55–68. Retrieved from http://www.ace.hu/am/2016_1/AM-2016-1-IG.pdf
  21. Massarczyk, R., Schramm, G., Belgya, T., Schwengner, R., Beyer, R., Bemmerer, D., … Weil, J. L. (2016). Role of electric and magnetic dipole strength functions in the Cd 114 (γ,γ′) and Cd 113 (n,γ) reactions. Physical Review C, 93(1), 014301. https://doi.org/10.1103/PhysRevC.93.014301
  22. Prudêncio, M. I., Dias, M. I., Burbidge, C. I., Kasztovszky, Z., Marques, R., Marques, J. G., … Pais, A. (2016). PGAA, INAA and luminescence to trace the “history” of “The Panoramic View of Lisbon”: Lisbon before the earthquake of 1755 in painted tiles (Portugal). Journal of Radioanalytical and Nuclear Chemistry, 307(1), 541–547. https://doi.org/10.1007/s10967-015-4176-4
  23. Szentmiklosi, L., Parkanyi, D., & Sziklai-Laszlo, I. (2016). Upgrade of the Budapest neutron activation analysis laboratory. Journal of Radioanalytical and Nuclear Chemistry, 309(1), 91–99. Retrieved from http://www.readcube.com/articles/10.1007/s10967-016-4776-7
  24. Szilágyi, V., Kis, Z., & Szentmiklósi, L. (2016). Neutron imaging for archaeometry. Archeometriai Muhely, 13(3), 157–172.
  25. Araczki, C., & Fabian, M. (2016). Nagy aktivitasu radioaktiv hulladekok kondicionálása es atomi szintű szerkezetvizsgálata. [Conditioning of HLW and their basic atomic structure]. In Őszi Radiokémiai Napok 2016 (pp. 89–90). Budapest: Magyar Kémikusok Egyesülete (MKE).
  26. Fábián, M. (2016). Radioaktiv hulladekok kondicionalasara optimalizalt amorf osszetetelek szerkezetvizsgalata. In Oszi Radiokemiai Napok 2016 (p. 16). Budapest: Magyar Kemikusok Egyesulete (MKE).
  27. Fabian, M., & Svab, E. (2016). PSD - Neutron powder diffractometer with positiion sensitive detectors.
  28. Fabian, M., & Svab, E. (2016). Formation of Mixed Bond-Angle Linkages in Zinc Boromolybdate Glasses. Journal of the American Ceramic Society, 99(7), 2292–2299. https://doi.org/10.1111/jace.14233
  29. Fabian, M., Svab, E., & Krezhov, K. (2016). Network structure with mixed bond-angle linkages in MoO3-ZnO-B2O3glasses: Neutron diffraction and reverse Monte Carlo modelling. Journal of Non-Crystalline Solids, 433(1), 6–13. https://doi.org/10.1016/j.jnoncrysol.2015.11.023
  30. Krezhov, K., Vladikova, D., Raikova, G., Genov, I., Malakova, T., Dimitrov, D., … Fabian, M. (2016). Structure study of BaCe0.85Y0.15O3-Δ as solid state fuel cell material. 9Th International Physics Conference of the Balkan Physical Union (Bpu-9), 1722, 140008. https://doi.org/10.1063/1.4944198
  31. Krezhov, K., Vladikova, D., Raikova, G., Malakova, T., Genov, I., Tz, N., … Fabian, M. (2016). Bace0.85Y0.15O3-Δ Based Materials for Solid Oxide Fuel Cells: Room-Temperature Neutron Diffraction Study. Rad Conference Proceedings, 1, 117–123.
  32. Sánchez-Gil, V., Noya, E. G., Guil, J. M., Lomba, E., Valencia, S., Da Silva, I., … Temleitner, L. (2016). Evidence of a Structural Change in Pure-Silica MEL upon the Adsorption of Argon. Journal of Physical Chemistry C, 120(4), 2260–2270. https://doi.org/10.1021/acs.jpcc.5b11264
  33. Dudas, Z., Len, A., & Fuzi, J. (2016). Szol-gel modszerrel eloallitott hibrid szilika-gelek jellemzese kisszogu neutronszorassal. In Oszi Radiokemiai Napok 2016 (p. 15). Budapest: Magyar Kemikusok Egyesulete (MKE).
  34. Hurtony, T., Szakál, A., Almásy, L., Len, A., Kugler, S., Bonyár, A., & Gordon, P. (2016). Characterization of the microstructure of tin-silver lead free solder. Journal of Alloys and Compounds, 672, 13–19. https://doi.org/10.1016/j.jallcom.2016.02.177
  35. Pisárčik, M., Pupák, M., Devínsky, F., Almásy, L., Tian, Q., & Bukovský, M. (2016). Urea-based gemini surfactants: Synthesis, aggregation behaviour and biological activity. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 497, 385–396. https://doi.org/10.1016/j.colsurfa.2016.03.028
  36. Putz, A.-M., Len, A., Iani, C., Savii, C., & Almásy, L. (2016). Ultrasonic preparation of mesoporous silica using pyridinium ionic liquid. Korean Journal of Chemical Engineering, 33(3), 749–754. https://doi.org/10.1007/s11814-016-0021-x
  37. Tian, Q., Krakovský, I., Yan, G., Bai, L., Liu, J., Sun, G., … Almásy, L. (2016). Microstructure changes in polyester polyurethane upon thermal and humid aging. Polymers, 8(5). https://doi.org/10.3390/polym8050197
  38. Ünnep, R. (2016). Fotoszintetikus membranrendszerek szerkezetenek vizsgalata kisszogu neutronszoras segitsegevel. In Oszi Radiokemiai Napok 2016 (p. 14). Budapest: Magyar Kemikusok Egyesulete (MKE).
  39. Viani, A., Sotiriadis, K., Šašek, P., Ševčík, R., & Len, A. (2016). Characterisation of historical fired clay bricks with small angle neutron scattering. In C. Modena & da P. F (Eds.), Brick and Block Masonry: Trends, Innovations and Challenges: Proceedings of the 16th International Brick and Block Masonry Conference, IBMAC 2016 (pp. 1977–1982). Leiden: CRC Press/Balkema.
  40. Viani, A., Sotiriadis, K., Len, A., Šašek, P., & Ševčík, R. (2016). Assessment of firing conditions in old fired-clay bricks: The contribution of X-ray powder diffraction with the Rietveld method and small angle neutron scattering. Materials Characterization, 116, 33–43. https://doi.org/10.1016/j.matchar.2016.04.003
  41. Zavdoveev, A., Maksakova, A., Pashinska, E., Varyukhtin, A., Len, A., Fuzi, J., & Rosta, L. (2016). Sans study of nanoscale structure of low-carbon steel after rolling with shear.
  42. Kasztovszky, Z., Káli, G., Kis, Z., Kovács, I., Len, A., Maróti, B., … Szőkefalvi-Nagy, Z. (2016). Applications of neutron-based and ion beam methods in Cultural Heritage research at the Budapest Neutron Centre, Techné. La Science Au Service de l’historie de l’art et Des Civilisations, 43(43), 70–74. Retrieved from http://www.ceric-eric.eu/uploads/About/CERICbrochurePFs.pdf
  43. Kolokathis, P. D., Káli, G., Jobic, H., & Theodorou, D. N. (2016). Diffusion of Aromatics in Silicalite-1: Experimental and Theoretical Evidence of Entropic Barriers. Journal of Physical Chemistry C, 120(38), 21410–21426. https://doi.org/10.1021/acs.jpcc.6b05462
  44. Gong, J., Paul, N., Nagy, B., Dolgos, M., Bottyán, L., Müller-Buschbaum, P., … Paul, A. (2016). Morphology of Fe nanolayers with Pt overlayers on low-temperature annealing. Journal of Applied Crystallography, 49(5), 1682–1692. https://doi.org/10.1107/S1600576716011882
  45. Nagy, B., Khaydukov, Y., Efremov, D., Vasenko, A. S., Mustafa, L., Kim, J. H., … Bottyán, L. (2016). On the explanation of the paramagnetic Meissner effect in superconductor/ferromagnet heterostructures. Epl, 116(1). https://doi.org/10.1209/0295-5075/116/17005
  46. Jovari, P., Lucas, P., ZY, Y., Bureau, B., Kaban, I., Beuneu, B., … Bednarčik, J. (2016). On the structure of Ge–As–Te–Cu glasses. Journal of Non-Crystalline Solids, 433, 1–5.
  47. Laszlo, T., & Laszlo, P. (2016). Tetraederes molekularis folyadekok. Egyszeru anyagok, fejfajast okozo problemak. Termeszet Vilaga, 147(8), 346–349.
  48. Pethes, I., Chahal, R., Nazabal, V., Prestipino, C., Trapananti, A., Michalik, S., & Jóvári, P. (2016). Chemical Short-Range Order in Selenide and Telluride Glasses. Journal of Physical Chemistry B, 120(34), 9204–9214. https://doi.org/10.1021/acs.jpcb.6b05996
  49. Pethes, I., Kaban, I., Stoica, M., Beuneu, B., & Jóvári, P. (2016). Chemical ordering in Pd81Ge19 metallic glass studied by reverse Monte-Carlo modelling of XRD, ND and EXAFS experimental data. Physica Scripta, 91(10). https://doi.org/10.1088/0031-8949/91/10/104004
  50. Temleitner, L., & Koszegi, L. (2016). Mtest diffractometer.
  51. Szakal, A., Marko, M., & Cser, L. (2016). Atomi felbontasu holografia neutronokkal. In Oszi Radiokemiai Napok 2016 (p. 17). Budapest: Magyar Kemikusok Egyesulete (MKE).
  52. Szakál, A., Markó, M., & Cser, L. (2016). Local distortions revealed by neutron holography in SnCd0.0026 alloy. Physical Review B, 93(17). https://doi.org/10.1103/PhysRevB.93.174115